Heat Stroke in Cell Tissues Related to Sulfur Dioxide Level Is Precisely Monitored by Light-Controlled Fluorescent Probes

Heat stroke (HS) can cause serious organism damage or even death. Early understanding of the mechanism of heat cytotoxicity can prevent or treat heat stroke related diseases. In this work, probe Ly-NT-SP was synthesized, characterized, and used for sulfur dioxide (SO2) detection in lysosomes. PBS so...

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Published in	Journal of the American Chemical Society Vol. 142; no. 6; pp. 3262 - 3268
Main Authors	Zhang, Weijie, Huo, Fangjun, Yue, Yongkang, Zhang, Yongbin, Chao, Jianbin, Cheng, Fangqin, Yin, Caixia
Format	Journal Article
Language	English
Published	WASHINGTON American Chemical Society 12.02.2020 Amer Chemical Soc
Subjects	Chemistry Chemistry, Multidisciplinary Fluorescent Dyes - chemistry HeLa Cells Hot Temperature Humans Lysosomes - metabolism Microscopy, Fluorescence - methods Oxidative Stress Physical Sciences Science & Technology Sulfur Dioxide - metabolism Ultraviolet Rays LYSOSOME VIVO STRESS MITOCHONDRIA
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Abstract	Heat stroke (HS) can cause serious organism damage or even death. Early understanding of the mechanism of heat cytotoxicity can prevent or treat heat stroke related diseases. In this work, probe Ly-NT-SP was synthesized, characterized, and used for sulfur dioxide (SO2) detection in lysosomes. PBS solutions of probe Ly-NT-SP at pH 5.0 present a marked broad emission band in the green zone (535 nm). After UV irradiation, the spiropyran group in Ly-NT-SP isomerizes to the merocyanine form (Ly-NT-MR), which presented a weak red-shifted emission at 630 nm. In addition, photocontrolled isomerization of Ly-NT-SP to Ly-NT-MR generated a CC–CN+ fragment able to react, through a Michael addition, with SO2 to yield a highly emissive adduct with a marked fluorescence in the green channel (535 nm). In vitro studies showed a remarkable selectivity of photoactivated Ly-NT-MR to SO2 with a limit of detection as low as 4.7 μM. MTT viability assays demonstrated that the Ly-NT-SP is nontoxic to HeLa cells and can be used to detect SO2 in lysosomes. Taking advantage of this, the sensor is successfully applied to image increasing SO2 values in lysosomes during heat shock for the first time. Moreover, we also confirmed that the increased SO2 can protect the small intestine against damage induced by heat shock through regulating oxidative stress in cells and mice.
AbstractList	( )Heat stroke (HS) can cause serious organism damage or even death. Early understanding of the mechanism of heat cytotoxicity can prevent or treat heat stroke related diseases. In this work, probe Ly-NT-SP was synthesized, characterized, and used for sulfur dioxide (SO2) detection in lysosomes. PBS solutions of probe Ly-NT-SP at pH 5.0 present a marked broad emission band in the green zone (535 nm). After UV irradiation, the spiropyran group in Ly-NT-SP isomerizes to the merocyanine form (Ly-NT-MR), which presented a weak red-shifted emission at 630 nm. In addition, photocontrolled isomerization of Ly-NT-SP to Ly-NT-MR generated a C=C-C=N+ fragment able to react, through a Michael addition, with SO2 to yield a highly emissive adduct with a marked fluorescence in the green channel (535 nm). In vitro studies showed a remarkable selectivity of photoactivated Ly-NT-MR to SO2 with a limit of detection as low as 4.7 mu M. MTT viability assays demonstrated that the Ly-NT-SP is nontoxic to HeLa cells and can be used to detect SO2 in lysosomes. Taking advantage of this, the sensor is successfully applied to image increasing SO2 values in lysosomes during heat shock for the first time. Moreover, we also confirmed that the increased SO2 can protect the small intestine against damage induced by heat shock through regulating oxidative stress in cells and mice. Heat stroke (HS) can cause serious organism damage or even death. Early understanding of the mechanism of heat cytotoxicity can prevent or treat heat stroke related diseases. In this work, probe was synthesized, characterized, and used for sulfur dioxide (SO ) detection in lysosomes. PBS solutions of probe at pH 5.0 present a marked broad emission band in the green zone (535 nm). After UV irradiation, the spiropyran group in isomerizes to the merocyanine form ( ), which presented a weak red-shifted emission at 630 nm. In addition, photocontrolled isomerization of to generated a C═C-C═N fragment able to react, through a Michael addition, with SO to yield a highly emissive adduct with a marked fluorescence in the green channel (535 nm). In vitro studies showed a remarkable selectivity of photoactivated to SO with a limit of detection as low as 4.7 μM. MTT viability assays demonstrated that the is nontoxic to HeLa cells and can be used to detect SO in lysosomes. Taking advantage of this, the sensor is successfully applied to image increasing SO values in lysosomes during heat shock for the first time. Moreover, we also confirmed that the increased SO can protect the small intestine against damage induced by heat shock through regulating oxidative stress in cells and mice. Heat stroke (HS) can cause serious organism damage or even death. Early understanding of the mechanism of heat cytotoxicity can prevent or treat heat stroke related diseases. In this work, probe Ly-NT-SP was synthesized, characterized, and used for sulfur dioxide (SO2) detection in lysosomes. PBS solutions of probe Ly-NT-SP at pH 5.0 present a marked broad emission band in the green zone (535 nm). After UV irradiation, the spiropyran group in Ly-NT-SP isomerizes to the merocyanine form (Ly-NT-MR), which presented a weak red-shifted emission at 630 nm. In addition, photocontrolled isomerization of Ly-NT-SP to Ly-NT-MR generated a CC–CN+ fragment able to react, through a Michael addition, with SO2 to yield a highly emissive adduct with a marked fluorescence in the green channel (535 nm). In vitro studies showed a remarkable selectivity of photoactivated Ly-NT-MR to SO2 with a limit of detection as low as 4.7 μM. MTT viability assays demonstrated that the Ly-NT-SP is nontoxic to HeLa cells and can be used to detect SO2 in lysosomes. Taking advantage of this, the sensor is successfully applied to image increasing SO2 values in lysosomes during heat shock for the first time. Moreover, we also confirmed that the increased SO2 can protect the small intestine against damage induced by heat shock through regulating oxidative stress in cells and mice.
Author	Zhang, Weijie Chao, Jianbin Yin, Caixia Zhang, Yongbin Cheng, Fangqin Huo, Fangjun Yue, Yongkang
AuthorAffiliation	Research Institute of Applied Chemistry Key Laboratory of Chemical Biology and Molecular Engineering of Ministry of Education, Institute of Molecular Science Institute of Resources and Environmental Engineering
AuthorAffiliation_xml	– name: Key Laboratory of Chemical Biology and Molecular Engineering of Ministry of Education, Institute of Molecular Science – name: Research Institute of Applied Chemistry – name: Institute of Resources and Environmental Engineering
Author_xml	– sequence: 1 givenname: Weijie surname: Zhang fullname: Zhang, Weijie organization: Key Laboratory of Chemical Biology and Molecular Engineering of Ministry of Education, Institute of Molecular Science – sequence: 2 givenname: Fangjun surname: Huo fullname: Huo, Fangjun organization: Research Institute of Applied Chemistry – sequence: 3 givenname: Yongkang surname: Yue fullname: Yue, Yongkang organization: Key Laboratory of Chemical Biology and Molecular Engineering of Ministry of Education, Institute of Molecular Science – sequence: 4 givenname: Yongbin surname: Zhang fullname: Zhang, Yongbin organization: Research Institute of Applied Chemistry – sequence: 5 givenname: Jianbin surname: Chao fullname: Chao, Jianbin organization: Research Institute of Applied Chemistry – sequence: 6 givenname: Fangqin surname: Cheng fullname: Cheng, Fangqin organization: Institute of Resources and Environmental Engineering – sequence: 7 givenname: Caixia orcidid: 0000-0001-5548-6333 surname: Yin fullname: Yin, Caixia email: yincx@sxu.edu.cn organization: Key Laboratory of Chemical Biology and Molecular Engineering of Ministry of Education, Institute of Molecular Science
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References	Yue, YK (WOS:000434893200093) 2018; 90 Argaud, L (WOS:000250806200003) 2007; 167 Wan, QQ (WOS:000343750300013) 2014; 53 Shao, N (WOS:000275084600051) 2010; 132 Chan, J (WOS:000311436400010) 2012; 4 Yuan, L (WOS:000354910500018) 2015; 137 Zhang, JJ (WOS:000413118000005) 2017; 8 Wen, Y (WOS:000414887000099) 2017; 89 Yu, HB (WOS:000310103800040) 2012; 134 Tamima, U (WOS:000482545300059) 2019; 91 Wu, LL (WOS:000409395500011) 2017; 9 Yi, G (WOS:000404283700066) 2017; 8 Li, ML (WOS:000449887800045) 2018; 140 Kourtis, N (WOS:000309733300040) 2012; 490 Balce, DR (WOS:000345314700020) 2014; 289 Epstein, Y (WOS:000472215000010) 2019; 380 Gao, ZM (WOS:000329622600002) 2013; 9 Li, HY (WOS:000498281600045) 2019; 141 Wu, LL (WOS:000433510000002) 2018; 54 Bouchama, A (WOS:000176266200008) 2002; 346 Zou, Y (WOS:000263319600004) 2008; 130 Liu, CL (WOS:000470034500013) 2019; 141 Samanta, D (WOS:000424872800002) 2018; 9 Casey, JR (WOS:000272944700012) 2010; 11 Shao, Q (WOS:000280205200008) 2010; 39 Ma, YY (WOS:000486199100022) 2019; 55 Stich, MIJ (WOS:000280205200024) 2010; 39 Wu, MY (WOS:000436570500007) 2018; 6 Sun, W (WOS:000380730100002) 2016; 116 Settembre, C (WOS:000317960800010) 2013; 14 Chen, ZY (WOS:000498281600004) 2019; 141 Szymanski, W (WOS:000323301200009) 2013; 113 Sapsford, KE (WOS:000239079900006) 2006; 45 Patz, JA (WOS:000233300200039) 2005; 438 Liu, F (WOS:000381080300005) 2016; 101 Zhang, WJ (WOS:000406982500038) 2017; 89 Zhang, WJ (WOS:000474795200074) 2019; 21 Klajn, R (WOS:000329070600012) 2014; 43 ref9/cit9 ref6/cit6 ref36/cit36 ref3/cit3 ref27/cit27 ref18/cit18 ref11/cit11 ref25/cit25 ref16/cit16 ref29/cit29 ref32/cit32 ref23/cit23 ref14/cit14 ref8/cit8 ref5/cit5 ref31/cit31 ref2/cit2 ref34/cit34 ref37/cit37 ref28/cit28 ref20/cit20 ref17/cit17 ref10/cit10 ref26/cit26 ref35/cit35 ref19/cit19 ref21/cit21 ref12/cit12 ref15/cit15 ref22/cit22 ref13/cit13 ref33/cit33 ref4/cit4 ref30/cit30 ref1/cit1 ref24/cit24 ref38/cit38 ref7/cit7
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Snippet	Heat stroke (HS) can cause serious organism damage or even death. Early understanding of the mechanism of heat cytotoxicity can prevent or treat heat stroke... ( )Heat stroke (HS) can cause serious organism damage or even death. Early understanding of the mechanism of heat cytotoxicity can prevent or treat heat stroke...
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StartPage	3262
SubjectTerms	Chemistry Chemistry, Multidisciplinary Fluorescent Dyes - chemistry HeLa Cells Hot Temperature Humans Lysosomes - metabolism Microscopy, Fluorescence - methods Oxidative Stress Physical Sciences Science & Technology Sulfur Dioxide - metabolism Ultraviolet Rays
Title	Heat Stroke in Cell Tissues Related to Sulfur Dioxide Level Is Precisely Monitored by Light-Controlled Fluorescent Probes
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